As far as I can understand, RAM is organized like a net of rows and columns of cells, each cell containing 1 byte. Also, each cell is label with an address memory written in hexadecimal system. Is this so? Now, when running a c++ program, I suppose it uses the RAM as a mean of storage. In this case, as the char type on c++ is the basic unit of storage, is this size of a char exactly the same as the cell (1 byte)?, does the size of a char depends on the size of a cell (in case the size of a cell is not 1 byte)?, does it depend on the compiler? Thank you so much.
closed as off topic by Paul R, Pavan, Adam Maras, talonmies, Aviram Segal Jan 12 '13 at 9:15
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It is easy to visualize RAM as a net of rows and columns. This is how most CS classes teach students as well and for most purposes this would do well at a conceptual level. One thing you must know while writing C++ programs is the concept of 2 different memories: stack and heap. Stack is memory that stores variables when they come in scope. When they go out of scope, they are removed. Think of this as a stack implementation (FIFO).
Now, heap memory is slightly more complicated. This does not have anything to do with scope of the variable. You can set a fixed memory location to contain a particular value and it will stay there until you free it up. You can set the heap memory by using the 'new' keyword.
For instance: int* abc = new int(2);
This means that the pointer
In C, the type of a character constant like
to determine the size of int in your system.